Evolution in Family Dendrobatidae (Poison Frogs): Difference between revisions

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==Introduction==
==Introduction==
[[Image:4_frogs.jpg|thumb|300px|right|Examples of bright coloration found in various species within the Dendrobatidae family. Image [https://www.joshsfrogs.com/catalog/blog/2018/03/what-dart-frog-is-right-for-me/ source]]]
The family Dendrobatidae, part of the class Amphibia, and more broadly, the kingdom Animalia, are a group of toxic frogs. These animals are commonly referred to as poison arrow frogs, dart poison frogs, or poison dart frogs. Frogs within this family are found living in the tropical climates of Central America and the northern portion of South America. They are usually small in size, and are known for their vivid coloration, although there are exceptions to this trait. Their diet consists of ants and mites, which research has suggested are suppliers of the precursor molecules that make up the amphibians toxins. Frogs in this family derive their common name from the Columbian practice of rubbing blow darts on the backs of frogs to coat them in poison for hunting. They produce some of the most highly toxic alkaloid poisons on earth. Many species’ toxins are strong enough to be lethal to vertebrates in even a micro dose. <ref>[https://animaldiversity.org/accounts/Dendrobatidae/ University of Michigan Museum of Zoology Animal Diversity Web - Dendrobatidae]</ref><ref>[https://amphibiaweb.org/lists/Dendrobatidae.shtml Amphibiaweb.org - Dendrobatidae]</ref><ref>[https://www.ncbi.nlm.nih.gov/pmc/articles/PMC33450/ Summers, K, and M E Clough. “The Evolution of Coloration and Toxicity in the Poison Frog Family (Dendrobatidae).” Proceedings of the National Academy of Sciences of the United States of America, The National Academy of Sciences, 22 May 2001]</ref><br>
The family Dendrobatidae, part of the class Amphibia, and more broadly, the kingdom Animalia, are a group of toxic frogs. These animals are commonly referred to as poison arrow frogs, dart poison frogs, or poison dart frogs. Frogs within this family are found living in the tropical climates of Central America and the northern portion of South America. They are usually small in size, and are known for their vivid coloration, although there are exceptions to this trait. Their diet consists of ants and mites, which research has suggested are suppliers of the precursor molecules that make up the amphibians toxins. Frogs in this family derive their common name from the Columbian practice of rubbing blow darts on the backs of frogs to coat them in poison for hunting. They produce some of the most highly toxic alkaloid poisons on earth. Many species’ toxins are strong enough to be lethal to vertebrates in even a micro dose. <ref>[https://animaldiversity.org/accounts/Dendrobatidae/ University of Michigan Museum of Zoology Animal Diversity Web - Dendrobatidae]</ref><ref>[https://amphibiaweb.org/lists/Dendrobatidae.shtml Amphibiaweb.org - Dendrobatidae]</ref><ref>[https://www.ncbi.nlm.nih.gov/pmc/articles/PMC33450/ Summers, K, and M E Clough. “The Evolution of Coloration and Toxicity in the Poison Frog Family (Dendrobatidae).” Proceedings of the National Academy of Sciences of the United States of America, The National Academy of Sciences, 22 May 2001]</ref><br>


[[Image:4_frogs.jpg|thumb|300px|right|Examples of bright coloration found in various species within the Dendrobatidae family. Image [https://www.joshsfrogs.com/catalog/blog/2018/03/what-dart-frog-is-right-for-me/ source]]]
 


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Revision as of 01:53, 10 December 2020

Introduction

Examples of bright coloration found in various species within the Dendrobatidae family. Image source

The family Dendrobatidae, part of the class Amphibia, and more broadly, the kingdom Animalia, are a group of toxic frogs. These animals are commonly referred to as poison arrow frogs, dart poison frogs, or poison dart frogs. Frogs within this family are found living in the tropical climates of Central America and the northern portion of South America. They are usually small in size, and are known for their vivid coloration, although there are exceptions to this trait. Their diet consists of ants and mites, which research has suggested are suppliers of the precursor molecules that make up the amphibians toxins. Frogs in this family derive their common name from the Columbian practice of rubbing blow darts on the backs of frogs to coat them in poison for hunting. They produce some of the most highly toxic alkaloid poisons on earth. Many species’ toxins are strong enough to be lethal to vertebrates in even a micro dose. [1][2][3]




Evolution

Phylogenetic tree of the four genera of Dendrobatidae used by Summers and Clough with representative species of each pictured.

Coloration and Toxicity
Members of the amphibian family Dendrobatidae are considered to be aposematic, meaning their coloration serves as an adverse warning that protects them from predation. For this notion to be true, it is implied that the frogs’ bright appearance and toxicity would have evolved in parallel. Research conducted by Summers and Clough set out to prove this hypothesis. Previously to this study, investigations of this hypothesis failed to account for phylogenetic relationships, which can cause a bias in results. Summers and Clough, however, made use of mitochondrial DNA from the gene regions cytochrome b, 12s RNA, and 16s RNA, in order to create a phylogenetic basis for their study. From this they developed four genera within the Dendrobatidae: Phyllobates, Dendrobates, Epipedobates, and Minyobates. This wide range of diversity within the family lead the researchers to a comparative method of analysis. For the twenty one representative species from each of the four genera examined in the study, data on toxicity was collected from literature, and coloration rated by both human observers and a computer program. When determining evolutionary correlation between the two phenomena, Comparative analysis on the data using models of both gradual and punctuated evolution showed that they were significantly correlated. The work of Summers and Clough effectively proved that frogs in the family Dendrobatidae, are in fact, aposematic. Their insight into the evolutionary processes in these animals are crucial, and provide an understanding of a constant relationship between two things that still are wildly varied within the group's population. [4]

While species in the family are morphologically very similar to each other, great phenotypic diversity is seen in coloration and patterning. Image source


Self Toxin Resistance
As with any toxic animal, Dendrobatidae frogs risk falling victim to their own poison. However, to combat this, an interesting feat of evolution has occurred. The nature of the alkalide poisons possessed by these amphibians is to target the nervous system, for example, as Tarvin et. al. specifically investigated in their study, epibatidine binds to and therefore blocks acetylcholine receptors. The mechanism they found in frogs with this toxin to avoid its effects was an alteration of a single amino acid. With just this one change that evolved three separate times in the poison frogs, epibatidine sensitivity was decreased. This solved the frogs’ problem of self-intoxication, but also happened to create another issue. The altered amino acid in the shared receptor of the toxin with acetylcholine also prevents the natural signaling that happens there and is needed for survival. But the frogs did however also find a solution to this problem. By expressing receptors from frogs in human cells, Tarvin et. al. were able to determine that there were additional amino acid changes that restored the acetylcholine signaling capabilities. But unlike the single substitution that created the toxin insensitivity, these replacements were different in various frog lineages. The work of Tarvin et. al. demonstrates how toxin resistance can evolve. It is in part a homoplasy, but also shows the divergence between different lineages. From this, we can see that resistance to their own toxins was advantageous for several of the ancestors of Dendrobatidae. [5]

Microbiome

Gram stain of Aeromonas hydrophila, a bacterium known to infect frogs such as those in the Dendrobatidae family. Image source

Include some current research, with a second image.


Conclusion

The family Dendrobatidae are an incredible group of species. Besides the beauty of their striking colors, they can be commended for their successful evolutionary methods for protection. The ability to develop extremely potent toxins from the ants they feed on serves them well as a deterrent to predators and microbial pathogens. Their resistance to self-intoxication is also a crafty advantage that is critical to their survival. Overall, the evolution of this family is a very interesting topic that is still being explored today.


References


Edited by Sydney McCallie, student of Joan Slonczewski for BIOL 116 Information in Living Systems, 2020, Kenyon College.